A. Chubar scite author profile

Mesenchymal stromal cells (MSC) ‘educated’ by tumor cells are an essential component of the multiple myeloma (MM) tumor microenvironment (TME) involved in tumor progression. Transcription of tandemly repeated (TR) non-coding DNA is often activated in many tumors and is required for tumor progression and cancer cells genome reorganization. The aim of the work was to study functional properties including the TR DNA transcription profile of MSC from the hematopoietic niche of treated MM patients. Healthy donors (HD) and patients after bortezomib-based treatment (with partial or complete response, PoCR, and non-responders, NR) were enrolled in the study. Their trephine biopsies were examined histologically to evaluate the hematopoietic niche. MSC cultures obtained from the biopsies were used for evaluation of the proliferation rate, osteogenic differentiation, presence of tumor MSC markers, resistance to bortezomib, and pericentromeric TR DNA transcription level. The MSC ‘education’ by multiple myeloma cells was mimicked in co-culture experiments with or without bortezomib. The TR DNA transcription profile was accessed. The histological examination revealed the persistence of the tumor microenvironment (especially of the vasculature) in treated patients. In co-culture experiments, MSC of bortezomib-treated patients were more resistant to bortezomib and protected cancer MM cells of the RPMI8226 cell line more effectively than HD-MSC did. The MSC obtained from PoCR and NR samples differed in their functional properties (proliferation capacity, osteogenic potential, and cancer-associated fibroblasts markers). Transcriptome analysis revealed activation of the TR transcription in cells of non-hematopoietic origin from NR patients’ bone marrow. The pericentromeric TR DNA of HS2/HS3 families was among the most upregulated in stromal MSC but not in cancer cells. The highest level of transcription was observed in NR-MSC. Transcription of HS2/HS3 was not detected in healthy donors MSC unless they were co-cultured with MM cancer cells and acquired cancer-associated phenotype. Treatment with TNFα downregulated HS2/HS3 transcription in MSC and upregulated in MM cells. Our results suggest that the hematopoietic niche retains the cancer-associated phenotype after treatment. Pericentromeric non-coding DNA transcription is associated with the MSC cancer-associated phenotype in patients with ineffective or partially effective multiple myeloma treatment.

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RNA-seeded membraneless bodies: Role of tandemly repeated RNA

Enukashvily

Dobrynin

Chubar

2021

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Pericentromeric satellite lncRNAs are induced in cancer-associated fibroblasts and regulate their functions in lung tumorigenesis

et al. 2023

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The abnormal tumor microenvironment (TME) often dictates the therapeutic response of cancer to chemo- and immuno-therapy. Aberrant expression of pericentromeric satellite repeats has been reported for epithelial cancers, including lung cancer. However, the transcription of tandemly repetitive elements in stromal cells of the TME has been unappreciated, limiting the optimal use of satellite transcripts as biomarkers or anti-cancer targets. We found that transcription of pericentromeric satellite DNA (satDNA) in mouse and human lung adenocarcinoma was observed in cancer-associated fibroblasts (CAFs). In vivo, lung fibroblasts expressed pericentromeric satellite repeats HS2/HS3 specifically in tumors. In vitro, transcription of satDNA was induced in lung fibroblasts in response to TGFβ, IL1α, matrix stiffness, direct contact with tumor cells and treatment with chemotherapeutic drugs. Single-cell transcriptome analysis of human lung adenocarcinoma confirmed that CAFs were the cell type with the highest number of satellite transcripts. Human HS2/HS3 pericentromeric transcripts were detected in the nucleus, cytoplasm, extracellularly and co-localized with extracellular vesicles in situ in human biopsies and activated fibroblasts in vitro. The transcripts were transmitted into recipient cells and entered their nuclei. Knock-down of satellite transcripts in human lung fibroblasts attenuated cellular senescence and blocked the formation of an inflammatory CAFs phenotype which resulted in the inhibition of their pro-tumorigenic functions. In sum, our data suggest that satellite long non-coding (lnc) RNAs are induced in CAFs, regulate expression of inflammatory genes and can be secreted from the cells, which potentially might present a new element of cell-cell communication in the TME.

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Autologous mesenchymal stem cells in treatment of liver cirrhosis: evaluation of effectiveness and visualization method

Kotkas

Енукашвили

Asadulayev

et al. 2020

Science and Innovations in Medicine

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Through clinical observation, we present an assessment of the autologous mesenchymal stem cells effectiveness in treatment of liver cirrhosis of alimentary etiology. In order to determine the localization of the implanted cell structures, the stem cells were previously labeled with iron (II, III) oxide nanoparticles (IONPs). Further MRI visualization helped to detect the cell structures stained with iron oxide nanoparticles in the human body. In 6 months after the cell therapy, the patient underwent clinical and biochemical blood tests, MEGX test, elastography and subjective health assessment test. The tests data analysis revealed the improvement of the values of all examined parameters after the cell treatment. Also in 6 and 12 months after the treatment, a liver biopsy was performed from the area where the implanted stem cells were visualized. In histological examination of liver bioptates obtained from the area of MSC transplantation, the largest number of stained cells was observed in liver micronodes, as well as at the boundaries of micronodes and fibrous septa. A portion of the bioptate obtained in 12 months after transplantation was used to produce primary cell cultures. Before the first re-seeding of the cultures, cell colonies of both fibroblast-like morphology and epithelial were detected in them. Both types of colonies contained the particles. Conducting the cell therapy to a patient with liver cirrhosis of alimentary etiology contributed to improving the laboratory and instrumental examinations indicators. The patient had come through the treatment procedure satisfactorily, no complications were registered.

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A. Chubar

Pericentromeric Non-Coding DNA Transcription Is Associated with Niche Impairment in Patients with Ineffective or Partially Effective Multiple Myeloma Treatment

RNA-seeded membraneless bodies: Role of tandemly repeated RNA

Pericentromeric satellite lncRNAs are induced in cancer-associated fibroblasts and regulate their functions in lung tumorigenesis

Autologous mesenchymal stem cells in treatment of liver cirrhosis: evaluation of effectiveness and visualization method

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